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Home » Product List » Titanium heat-exchanger part » Titanium Tube Coil
Product Details
Titanium Tube Coil
| Packing: | Wooden Case |
|---|---|
| Model NO.: | Gr1 Gr2 Gr5 |
| Standard: | ASTM B337/338 |
| Productivity: | 10PC/Week |
| Unit Price: | Negotiable |
| Shipment Terms: | FOB |
| Payment Terms: | L/C,T/T,D/P,Western Union |
| Minimum Order: | 5 Pieces |
| Price Valid Time: | From Nov 03,2011 To Nov 03,2012 |
| HS Code: | 8108904090 |
| Trademark: | Zhengyuan |
| Origin: | China(Mainland) |
| Classification: | Rare Metal |
| Shape: | in Coil |
| Size: | as Drawing |
| Kind: | Heat Exchanger, Condenser |
| Grade: | Gr1 Gr2 Gr5 |
| Skill: | Forged |
| Condition: | Annealed |
| Application: | Heat Exchange |
| Certification: | ISO 9001 |
| Color: | Metal |
| Purity: | >99% |
| Export Markets: | North America, South America, Eastern Europe, Southeast Asia, Africa, Oceania, Mid East, Eastern Asia, Western Europe |
Titanium tube coil, titanium pipe coil
Titanium heat exchanger part, Titanium condenser
Titanium alloy heat exchanger
Purity: >99.8%
Size: As special need or coming drawing
Grade: Gr1 Gr2 Gr5
Application: Heat exchanger, condenser, foods cold
Technique: Forging
Condition: Annealed
Delivert time: 5--10days
MOQ: 5 pcs
Heat Transfer Characteristics
Titanium has been a very attractive and well-established heat transfer material in shell/tube, plate/frame, and other types of heat exchangers for process fluid heating or cooling, especially in seawater coolers. Exchanger heat transfer efficiency can be optimized because of the following beneficial attributes of titanium:
1. Exceptional resistance to corrosion and fluid erosion
2. An extremely thin, conductive oxide surface film
3. A hard, smooth, difficult-to-adhere-to surface
4. A surface that promotes condensation
5. Reasonably good thermal conductivity
6. Good strength
Although unalloyed titanium possesses an inherent thermal conductivity below that of copper or aluminum, its conductivity is still approximately 10-20% higher than typical stainless steel alloys. With its good strength and ability to fully withstand corrosion and erosion from flowing, turbulent fluids (i. E., zero corrosion allowance), titanium walls can be thinned down dramatically to minimize heat transfer resistance (and cost). Titanium's smooth, non-corroding, hard-to-adhere to surfaces maintains high cleanliness factors over time. This surface promotes drop-wise condensation from aqueous vapors, thereby enhancing condensation rates in cooler/condensers compared to other metals as indicated in Figure 6. The ability to design and operate with high process or cooling water side flow rates and/or turbulence further enhances overall heat transfer efficiency.
All of these attributes permit titanium heat exchanger size, material requirements and overall initial life cycle costs to be reduced, making titanium heat exchangers more efficient and cost-effective than those designed with other common engineering alloys.
